CN204281333U - Calcium carbide is come out of the stove transmission system continuously - Google Patents

Abstract

The utility model belongs to calcium carbide manufacturing technology field, relates to a kind of calcium carbide and to come out of the stove continuously transmission system.Solve prior art speed of cooling slow, the technical problem that production efficiency is low.It comprises at least two the chain type transport sectors being located at furnace of calcium carbide periphery, each chain type transport sector is respectively equipped with some hoppers for hopper accept assembly and each hopper and accept assembly along chain type transport sector successively arranged adjacent, be provided with between two adjacent chain type transport sector ends be positioned at furnace of calcium carbide calcium carbide outlet immediately below material receiving area between, between material receiving area, place is provided with transfer mechanism, and the hopper be positioned on one of them chain type transport sector can be accepted assembly and be transferred to one by one between material receiving area by this transfer mechanism.The whole process of the cooling of the utility model calcium carbide production, calcium carbide and calcium carbide discharging is carried out continuously, and rate flow is fast, and cooling efficiency is high, and working efficiency is high.

Description

Calcium carbide is come out of the stove transmission system continuously

Technical field

The utility model belongs to calcium carbide manufacturing technology field, relates to a kind of calcium carbide and to come out of the stove continuously transmission system.

Background technology

Tourmalinization formal name used at school is called carbide of calcium, and molecular formula is CaC ₂, be the basic raw material of synthetic organic chemical manufacturing industry, carbide of calcium is important basic chemical raw materials, mainly for generation of acetylene gas, also for organic synthesis, oxycetylene welding etc.Calcium carbide mineral compound, white crystal, industrial goods are grey black block, and section is purple or grey.Meet water and immediately intense reaction occurs, generate acetylene, and release heat.

Industrial production calcium carbide is continuous charging, melting continuously, interval are come out of the stove.At set intervals, calcium carbide finished product be released in furnace of calcium carbide, because the calcium carbide of releasing is in 1800 DEG C-2000 DEG C, therefore needs calcium carbide cooling forming and be broken into certain granularity, for downstream industry.Existing calcium carbide cooling is put in splicing container by the calcium carbide in furnace of calcium carbide, and again with another splicing container splicing after piling, this splicing mode can cause calcium carbide to leak in replacing splicing container processes, causes waste, indirectly causes energy loss to increase.In order to reduce the replacement frequency of splicing container, usually must be larger by splicing Vessel Design, but the splicing container of large volume, cannot be formed and work continuously, and speed of cooling is comparatively slow, affects production efficiency.

In order to overcome the deficiencies in the prior art, there has been proposed various solution, as Chinese patent literature discloses a kind of device [patent No.: CN203741048U] of and continuous coo1ing continuously shaped for liquid calcium carbide, it comprises for holding liquid calcium carbide and making liquid calcium carbide be shaped to multiple moulds of solid-state calcium carbide, continuous conveying mechanism and actuating unit; Wherein, described multiple mould is fixed on described continuous conveying mechanism, and described continuous conveying mechanism transmits power by described actuating unit, operates continuously to enable described continuous conveying mechanism.

Such scheme can realize the continuously shaped of calcium carbide and cooling, and final production goes out the block calcium carbide of certain specification, improves production efficiency.But the continuous conveying mechanism of the program linearly type, can not realize carrying out non-stop run around furnace of calcium carbide, cooling efficiency and production efficiency still have much room for improvement.In addition, if interval is comparatively large between adjacent two moulds, then still there is the problem of calcium carbide waste; If interval is less between adjacent two moulds, then there is the problem of interference mutually in transportation, and conveying of turning cannot be realized.

Utility model content

The purpose of this utility model is for the problems referred to above, provides a kind of transmission system of carrying good stability and the calcium carbide that calcium carbide can not be caused to waste is come out of the stove continuously.

For achieving the above object, the utility model have employed following technical proposal: a kind of calcium carbide is come out of the stove transmission system continuously, native system comprises at least two the chain type transport sectors being located at furnace of calcium carbide periphery, each chain type transport sector is respectively equipped with some hoppers for hopper accept assembly and each hopper and accept assembly along chain type transport sector successively arranged adjacent, be provided with between two adjacent chain type transport sector ends be positioned at furnace of calcium carbide calcium carbide outlet immediately below material receiving area between, between described material receiving area, place is provided with transfer mechanism, the hopper be arranged on one of them chain type transport sector can be accepted assembly and to be transferred to one by one between material receiving area and to utilize in transfer process and accepted assembly by the hopper transferred and accept assembly top on another chain type transport sector by being positioned at the hopper located between material receiving area by this transfer mechanism.

Come out of the stove continuously in transmission system at above-mentioned calcium carbide, described transfer mechanism splices mutually transferring when assembly accepted by hopper this edge accepted the hopper on assembly by the hopper transferred and be positioned at the hopper that the hopper located between material receiving area is accepted on assembly.

Come out of the stove continuously in transmission system at above-mentioned calcium carbide, described chain type transport sector comprises interior slide track component and ring chain, described ring chain engages at least two sprocket wheels respectively, and one of them sprocket wheel is connected with driving mechanism, described ring chain has and has one section of segment arranged along interior slide track component axis at least, and this segment is flexibly connected with interior slide track component, described hopper is accepted assembly and is arranged on along on the segment of interior slide track component axis layout.

Come out of the stove continuously in transmission system at above-mentioned calcium carbide, on described ring chain, uniform intervals is fixed with some impellers respectively, and described hopper is accepted component bottom and is fixed with push rod, and described push rod and impeller one_to_one corresponding are arranged.

Come out of the stove continuously in transmission system at above-mentioned calcium carbide, described transfer mechanism comprises hydro-cylinder, the piston rod of hydro-cylinder is hinged with wedge, torsion spring is provided with between described wedge and piston rod, described wedge sidepiece is provided with and wedge can be made to cross the scarp of push rod with push rod contacts side surfaces, to be provided with to cross push rod when wedge and under torsion spring effect, can withstand the groove of push rod after return in wedge end.

Come out of the stove continuously in transmission system at above-mentioned calcium carbide, described interior slide track component is provided with the central channel extended along axis, described segment is arranged in central channel, an inner orbit is respectively equipped with in the notch down either side of central channel, described impeller is fixed on the internal trolley being respectively equipped with on segment and in the both sides of impeller and can rolling along inner orbit, a pressing plate is respectively equipped with in the notch both sides of central channel, described pressing plate and the upper and lower one_to_one corresponding of inner orbit arrange and internal trolley between pressing plate and inner orbit, described segment is located at below inner orbit.

Come out of the stove continuously in transmission system at above-mentioned calcium carbide, described chain type transport sector also comprises two the parallel sliding track assemblies being separately positioned on interior slide track component both sides, and described hopper is accepted assembly and is connected with parallel sliding track assembly and can moves along parallel sliding track assembly.

Come out of the stove continuously in transmission system at above-mentioned calcium carbide, described hopper is accepted assembly and is comprised underframe, is respectively equipped with the outer roller be arranged on parallel sliding track assembly, described underframe is fixed with the hopper for hopper in the two bottom sides of underframe.

Come out of the stove continuously in transmission system at above-mentioned calcium carbide, described parallel sliding track assembly is provided with the roller baffle plate be positioned at outside outer roller, roller baffle plate has two and is parallel to each other, and outer roller is positioned in the middle of two roller baffle plates, and the height of roller baffle plate is higher than outer roller; Described parallel sliding track assembly also comprises the two pieces of underframe baffle plates be fixed on interior slide track component, to be pressed on after the bending of the top of two pieces of underframe baffle plates on roller baffle plate and the level height at underframe baffle plate top higher than underframe.

Come out of the stove continuously in transmission system at above-mentioned calcium carbide, described parallel sliding track assembly is also provided with some braking devicess, described braking devices comprises the brake driving mechanism be fixed on parallel sliding track assembly, described brake driving mechanism has can linearly reciprocating output terminal, the output terminal of brake driving mechanism is hinged with braking vane, when the output terminal of the driving mechanism that brakes stretches out or retracts, braking vane can rise or decline thus withstand or unclamp outer roller, described brake driving mechanism is oil cylinder, the output terminal of oil cylinder is hinged with braking vane web plate, braking vane web plate is away from the hinged braking vane of the other end of oil cylinder, braking vane is away from the other end of braking vane web plate and parallel sliding track member hinges.

Compared with prior art, the utility model has the advantage of: the whole process of the cooling of calcium carbide production, calcium carbide and calcium carbide discharging is carried out continuously, calcium carbide can not be caused to leak when more moving hopper component, rate flow is fast, cooling efficiency is high, working efficiency is high, improves calcium carbide output, and indirectly reduces energy loss.

Accompanying drawing explanation

Fig. 1 is the structural representation that the utility model provides;

Fig. 2 is the structure for amplifying schematic diagram of two ring chain junctions;

Fig. 3 is the structure for amplifying schematic diagram of interior slide track component and furnace of calcium carbide junction;

Fig. 4 is the structural representation of the interior slide track component of annular;

Fig. 5 is the structure for amplifying schematic diagram of hopper component on interior slide track component;

Fig. 6 is the A place enlarged view of Fig. 3;

Fig. 7 is the scheme of installation of transfer mechanism;

Fig. 8 is the structural representation of transfer mechanism.

In figure: furnace of calcium carbide 10, calcium carbide outlet 11, between material receiving area 12, , chain type transport sector 20, interior slide track component 21, central channel 211, inner orbit 212, internal trolley 213, pressing plate 214, ring chain 22, sprocket wheel 221, segment 222, impeller 223, parallel sliding track assembly 23, roller baffle plate 231, underframe baffle plate 232, assembly 30 accepted by hopper, hopper 31, push rod 32, underframe 33, outer roller 34, hopper 35, transfer mechanism 40, hydro-cylinder 41, wedge 42, scarp 43, groove 44, wedge strongback 45, wedge rotating shaft 46, running fix groove 47, wedge locating shaft 48, braking devices 50, brake driving mechanism 51, braking vane 52, braking vane web plate 53.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in more detail.

As Fig. 1, Fig. 2, shown in Fig. 3 and Fig. 7, a kind of calcium carbide is come out of the stove transmission system continuously, native system comprises at least two the chain type transport sectors 20 being located at furnace of calcium carbide 10 periphery, each chain type transport sector 20 is respectively equipped with some hoppers for hopper 31 accept assembly 30 and each hopper and accept assembly 30 along chain type transport sector 20 successively arranged adjacent, be provided with between two adjacent chain type transport sector 20 ends be positioned at furnace of calcium carbide 10 calcium carbide outlet 11 immediately below material receiving area between 12, between described material receiving area, 12 places are provided with transfer mechanism 40, the hopper be arranged on one of them chain type transport sector 20 can be accepted assembly 30 and to be transferred between material receiving area 12 one by one and to utilize in transfer process and accepted assembly 30 by the hopper transferred and the hopper being positioned at 12 places between material receiving area is accepted assembly 30 push up to another chain type transport sector 20 by this transfer mechanism 40.

In the present invention, each chain type transport sector 20 surrounds the ring structure being positioned at furnace of calcium carbide 10 periphery.Between material receiving area, the quantity of 12 is determined according to the quantity of the calcium carbide outlet 11 of furnace of calcium carbide 10.Preferably, calcium carbide outlet 11 has several and is uniformly distributed along furnace of calcium carbide 10 circumference, and more preferably, calcium carbide outlet 11 has 3.

The configuration achieves and accept in assembly 30 alternation procedure at hopper, there is not gap between the two, calcium carbide can not be revealed; And be conducive to the circle transmission that assembly 30 accepted by hopper, improve transmission stability and transmission efficiency.

Again shown in composition graphs 5, chain type transport sector 20 comprises interior slide track component 21 and ring chain 22, described ring chain 22 engages at least two sprocket wheels 221 respectively, and one of them sprocket wheel 221 is connected with driving mechanism, driving mechanism can select motor, described ring chain 22 has and has one section of segment 222 arranged along interior slide track component 21 axis at least, and this segment 222 is flexibly connected with interior slide track component 21, described hopper is accepted assembly 30 and is arranged on along on the segment 222 of interior slide track component 21 axis layout.

On ring chain 22, uniform intervals is fixed with some impellers 223 respectively, and described hopper is accepted bottom assembly 30 and is fixed with push rod 32, and described push rod 32 is arranged with impeller 223 one_to_one corresponding.

Again shown in composition graphs 6, interior slide track component 21 is provided with the central channel 211 extended along axis, described segment 222 is arranged in central channel 211, an inner orbit 212 is respectively equipped with in the notch down either side of central channel 211, described impeller 223 is fixed on the internal trolley 213 being respectively equipped with on segment 222 and in the both sides of impeller 223 and can rolling along inner orbit 212, a pressing plate 214 is respectively equipped with in the notch both sides of central channel 211, described pressing plate 214 and inner orbit about 212 one_to_one corresponding arrange and internal trolley 213 between pressing plate 214 and inner orbit 212, described segment 222 is located at below inner orbit 212.

Again shown in composition graphs 4, chain type transport sector 20 also comprises two the parallel sliding track assemblies 23 being separately positioned on interior slide track component 21 both sides, and described hopper is accepted assembly 30 and is connected with parallel sliding track assembly 23 and can moves along parallel sliding track assembly 23.

Hopper is accepted assembly 30 and is comprised underframe 33, is respectively equipped with the outer roller 34 be arranged on parallel sliding track assembly 23, described underframe 33 is fixed with the hopper 35 for hopper 31 in the two bottom sides of underframe 33.

Parallel sliding track assembly 23 is provided with the roller baffle plate 231 be positioned at outside outer roller 34, and roller baffle plate 231 has two and is parallel to each other, and outer roller 34 is positioned in the middle of two roller baffle plates 231, and the height of roller baffle plate 231 is higher than outer roller 34; Described parallel sliding track assembly 23 also comprises the two pieces of underframe baffle plates 232 be fixed on interior slide track component 21, form the location, both sides that assembly 30 accepted by hopper, to be pressed on roller baffle plate 231 after the top bending of two pieces of underframe baffle plates 232 and the level height at underframe baffle plate 232 top higher than underframe 33, underframe baffle plate 232 is for suppressing underframe 33, further positioning action is played to underframe 33, thus the cycle operation process making hopper accept assembly 30 is steadily carried out.

Transfer mechanism 40 is spliced by the edge that the hopper 31 that the hopper 31 on assembly 30 and the hopper that has been positioned at 12 places between material receiving area are accepted on assembly 30 accepted by the hopper transferred mutually transferring when assembly 30 accepted by hopper this.

As shown in Figure 8, transfer mechanism 40 comprises hydro-cylinder 41, the piston rod of hydro-cylinder 41 is hinged with wedge 42, torsion spring (not shown) is provided with between described wedge 42 and piston rod, described wedge 42 sidepiece is provided with and wedge 42 can be made to cross the scarp 43 of push rod 32 with push rod 32 contacts side surfaces, to be provided with to cross push rod 32 when wedge 42 and under torsion spring effect, can withstand the groove 44 of push rod 32 after return in wedge 42 end.

Preferred version, transfer mechanism 40 also comprises the wedge strongback 45 affixed with the piston rod of hydro-cylinder 41, this wedge strongback 45 is installed with the wedge rotating shaft 46 be rotationally connected with wedge 42, the two ends of torsion spring respectively with wedge rotating shaft 46 and wedge 42 affixed, thus realize the hinged of wedge 42 and wedge strongback 45, wedge 42 is provided with curved running fix groove 47, wedge strongback 45 is also installed with the wedge locating shaft 48 being positioned at running fix groove 47, wedge 42 can with wedge rotating shaft 46 for axle center and with running fix groove 47 for rotational angle moves back and forth.

As shown in Figure 5, parallel sliding track assembly 23 is also provided with some braking devicess 50, described braking devices 50 comprises the brake driving mechanism 51 be fixed on parallel sliding track assembly 23, described brake driving mechanism 51 has can linearly reciprocating output terminal, the output terminal of brake driving mechanism 51 is hinged with braking vane 52, when the output terminal of the driving mechanism 51 that brakes stretches out or retracts, braking vane 52 can rise or decline thus withstand or unclamp outer roller 34, described brake driving mechanism 51 is oil cylinder (also can be cylinder), the output terminal of oil cylinder is hinged with braking vane web plate 53, braking vane web plate 53 is away from the hinged braking vane 52 of the other end of oil cylinder, braking vane 52 away from the other end of braking vane web plate 53 and parallel sliding track assembly 23 hinged.

The Main Function of braking devices 50 coordinates the location of hopper 31 when splicing, prevents hopper 34 from can accurately not navigate to due to the effect of inertia below calcium carbide outlet 11, also can prevent loss during calcium carbide splicing simultaneously.

In the present embodiment, interior slide track component 21 is connected in turn by least two interior slide rail 212 head and the tail; Described parallel sliding track assembly 23 is connected in turn by least two parallel sliding track head and the tail; Each ring chain 22 is at least provided with a chain stretching device.In addition, each ring chain 22 part be not arranged in interior slide track component 21 is positioned at outside, and this part segment also can adopt the structure of interior slide track component 21, thus improves the stability of this moiety segments transmission.

Principle of work of the present utility model is:

Sprocket wheel 221 drives ring chain 22 to rotate, when ring chain 22 rotates, form the ring structure around furnace of calcium carbide 10, hopper is accepted assembly 30 and to be placed on ring chain 22 and to be covered with interior slide track component 21 and to advance successively, when hopper 31 arrive calcium carbide export 11 time, hopper 31 splicing; When the piston rod of hydro-cylinder 41 travels forward, wedge 42 promotes hopper and accepts assembly 30 and to cross between material receiving area 12, and the hopper promoting splicing in 12 between material receiving area accepts assembly 30 on another chain type transport sector 20, namely realize hopper and accept assembly 30 and connect in the transition of two chain type transport sectors 20; When the piston rod of hydro-cylinder 41 moves backward, wedge 42 is by the contact of scarp 43 with push rod 32, wedge 42 is moved and crosses push rod 32, in this process, hopper undertaking assembly 30 is not subjected to displacement, when the piston rod of hydro-cylinder 41 travels forward again, then again promote hopper undertaking assembly 30 to travel forward, the like.

The replacement process of the hopper 31 of said process can not cause missing of calcium carbide.After the calcium carbide in hopper 31 has cooled, only hopper 31 need be taken off from hopper 35 and loaded empty hopper 31, thus realize cycle operation.

The utility model can realize continuous print splicing and discharging, thus improves the rate flow of hopper 34, when hopper 31 unloads from hopper 35, can continue cooling, also just improve production efficiency.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present utility model or surmount the scope that appended claims defines.

Although more employ furnace of calcium carbide 10 herein, calcium carbide outlet 11, between material receiving area 12, , chain type transport sector 20, interior slide track component 21, central channel 211, inner orbit 212, internal trolley 213, pressing plate 214, ring chain 22, sprocket wheel 221, segment 222, impeller 223, parallel sliding track assembly 23, roller baffle plate 231, underframe baffle plate 232, assembly 30 accepted by hopper, hopper 31, push rod 32, underframe 33, outer roller 34, hopper 35, transfer mechanism 40, hydro-cylinder 41, wedge 42, scarp 43, groove 44, wedge strongback 45, wedge rotating shaft 46, running fix groove 47, wedge locating shaft 48, braking devices 50, brake driving mechanism 51, braking vane 52, term such as braking vane web plate 53 grade, but do not get rid of the possibility using other term.These terms are used to be only used to describe and explain essence of the present utility model more easily; The restriction that they are construed to any one additional is all contrary with the utility model spirit.

Claims (10)

1. a calcium carbide is come out of the stove transmission system continuously, it is characterized in that, native system comprises is located at least two peripheral chain type transport sectors (20) of furnace of calcium carbide (10), each chain type transport sector (20) is respectively equipped with some hoppers for hopper (31) accept assembly (30) and each hopper accept assembly (30) along chain type transport sector (20) arranged adjacent successively, be provided with between two adjacent chain type transport sector (20) ends be positioned at furnace of calcium carbide (10) calcium carbide outlet (11) immediately below material receiving area between (12), between described material receiving area, (12) place is provided with transfer mechanism (40), the hopper be arranged on one of them chain type transport sector (20) can be accepted assembly (30) and be transferred to (12) between material receiving area one by one and utilize in transfer process and accepted by the hopper transferred the hopper that assembly (30) will be positioned at (12) place between material receiving area and accept assembly (30) top on another chain type transport sector (20) by this transfer mechanism (40).

2. calcium carbide according to claim 1 is come out of the stove transmission system continuously, it is characterized in that, described transfer mechanism (40) is spliced by the edge that the hopper (31) that the hopper (31) on assembly (30) and the hopper that has been positioned at (12) place between material receiving area are accepted on assembly (30) accepted by the hopper transferred mutually transferring when hopper accepts assembly (30) this.

3. calcium carbide according to claim 1 and 2 is come out of the stove transmission system continuously, it is characterized in that, described chain type transport sector (20) comprises interior slide track component (21) and ring chain (22), described ring chain (22) engages at least two sprocket wheels (221) respectively, and one of them sprocket wheel (221) is connected with driving mechanism, described ring chain (22) has and has one section of segment (222) arranged along interior slide track component (21) axis at least, and this segment (222) is flexibly connected with interior slide track component (21), described hopper is accepted assembly (30) and is arranged on along on the segment (222) of interior slide track component (21) axis layout.

4. calcium carbide according to claim 3 is come out of the stove transmission system continuously, it is characterized in that, on described ring chain (22), uniform intervals is fixed with some impellers (223) respectively, described hopper is accepted assembly (30) bottom and is fixed with push rod (32), and described push rod (32) and impeller (223) one_to_one corresponding are arranged.

5. calcium carbide according to claim 4 is come out of the stove transmission system continuously, it is characterized in that, described transfer mechanism (40) comprises hydro-cylinder (41), the piston rod of hydro-cylinder (41) is hinged with wedge (42), torsion spring is provided with between described wedge (42) and piston rod, described wedge (42) sidepiece is provided with and wedge (42) can be made to cross the scarp (43) of push rod (32) with push rod (32) contacts side surfaces, be provided with in wedge (42) end and cross push rod (32) when wedge (42) and under torsion spring effect, the groove (44) of push rod (32) after return, can be withstood.

6. calcium carbide according to claim 4 is come out of the stove transmission system continuously, it is characterized in that, described interior slide track component (21) is provided with the central channel (211) extended along axis, described segment (222) is arranged in central channel (211), an inner orbit (212) is respectively equipped with in the notch down either side of central channel (211), described impeller (223) is fixed on segment (222) and goes up and be respectively equipped with the internal trolley (213) that can roll along inner orbit (212) in the both sides of impeller (223), a pressing plate (214) is respectively equipped with in the notch both sides of central channel (211), described pressing plate (214) and inner orbit (212) up and down one_to_one corresponding are arranged and internal trolley (213) is positioned between pressing plate (214) and inner orbit (212), described segment (222) is located at inner orbit (212) below.

7. calcium carbide according to claim 6 is come out of the stove transmission system continuously, it is characterized in that, described chain type transport sector (20) also comprises two the parallel sliding track assemblies (23) being separately positioned on interior slide track component (21) both sides, and described hopper is accepted assembly (30) and is connected with parallel sliding track assembly (23) and can moves along parallel sliding track assembly (23).

8. calcium carbide according to claim 7 is come out of the stove transmission system continuously, it is characterized in that, described hopper is accepted assembly (30) and is comprised underframe (33), be respectively equipped with the outer roller (34) be arranged on parallel sliding track assembly (23) in the two bottom sides of underframe (33), described underframe (33) be fixed with the hopper (35) for hopper (31).

9. calcium carbide according to claim 8 is come out of the stove transmission system continuously, it is characterized in that, described parallel sliding track assembly (23) is provided with the roller baffle plate (231) being positioned at outer roller (34) outside, roller baffle plate (231) has two and is parallel to each other, outer roller (34) is positioned in the middle of two roller baffle plates (231), and the height of roller baffle plate (231) is higher than outer roller (34); Described parallel sliding track assembly (23) also comprises the two pieces of underframe baffle plates (232) be fixed on interior slide track component (21), is pressed on the upper and level height at underframe baffle plate (232) top of roller baffle plate (231) higher than underframe (33) after the bending of the top of two pieces of underframe baffle plates (232).

10. calcium carbide according to claim 8 is come out of the stove transmission system continuously, it is characterized in that, described parallel sliding track assembly (23) is also provided with some braking devicess (50), described braking devices (50) comprises the brake driving mechanism (51) be fixed on parallel sliding track assembly (23), described brake driving mechanism (51) has can linearly reciprocating output terminal, the output terminal of brake driving mechanism (51) is hinged with braking vane (52), when the output terminal of the driving mechanism (51) that brakes stretches out or retracts, braking vane (52) can rise or decline thus withstand or unclamp outer roller (34), described brake driving mechanism (51) is oil cylinder, the output terminal of oil cylinder is hinged with braking vane web plate (53), braking vane web plate (53) is away from the hinged braking vane of the other end (52) of oil cylinder, braking vane (52) away from the other end of braking vane web plate (53) and parallel sliding track assembly (23) hinged.